CN103934496A - Copying milling cutter for processing complex cavity - Google Patents

Abstract

The invention discloses a copying milling cutter for processing a complex cavity, relates to copying milling cutters, and is used for solving the problems that the owing cutting quantity is large when the existing annular knife is used for processing a high hardness complex surface, the subsequent handling workload is increased, the surface residue height is high, the cutting and vibration of next process tool are acute and the like, a tool tip speed of a bulb knife is zero, the end-milling capacity is limited, the tool tip is easy to collapse and the like. The copying milling cutter disclosed by the invention comprises a cutter body (1), wherein one end of the cutter body (1) is provided with multiple crumb containing grooves (2); the multiple crumb containing grooves (2) are uniformly arranged. The copying milling cutter also comprises multiple blades (3) with the same structures, wherein each crumb containing groove (2) is internally provided with a blade (3) through a screw; each blade (3) is of a central symmetry structure, the flat base width Dc of the cutter tip of each blade (3) is 3mm-8mm, and the bottom ends of the cutter tips of the multiple blades (3) can form a cutter hollow flat base structure. The copying milling cutter disclosed by the invention is used for secondary rough milling and semi-finishing processes of the complex cavity.

Description

A kind of profile milling cutter of complex-shaped surface mould processing use

Technical field

The present invention relates to a kind of profile milling cutter, be specifically related to a kind of profile milling cutter of complex-shaped surface mould processing use.

Background technology

For example, for having a large amount of smooth curved surfaces and the complex-shaped surface mould curved surface (car panel die) of the face that rises steeply, its architectural feature is complicated, material hardness is high, removal amount is large.A set of large-scale auto body panels mould, generally all in three axle machine toolings, the number of cutters needing can reach tens of, and conventional cutter is in the majority with endless knife and ball head knife.During processing cavity class part, in order to improve working (machining) efficiency, generally use large diameter endless knife to carry out famine processing, then need to use minor diameter endless knife to carry out the waste processing of secondary based on famine processing, remove the material that major diameter endless knife is not removed.And the profile of mould is complicated, include a large amount of small curve concave curved surfaces, the face width that endless knife is large can cause large surplus to owe to cut, and owing to cut to increase back chipping workload in subsequent processing; And after the reclamation of wasteland of endless knife secondary, there is comparatively obvious residual step on surface, can cause that the vibration of subsequent processing Tool in Cutting acutely causes tool wear serious, even damages cutter.

And semifinishing and back chipping operation are generally used ball head knife, and mainly as follows in complex-curved middle the produced problem of ball head knife processing high-hardness:

(1) common ball head knife point of a knife rotational line speed is zero, and machining condition is poor.In Mould Machining, can relate to the processing of a large amount of smooth class curved surfaces, generally all use ball head knife point of a knife position to cut, but what ball head knife was least good at is exactly to use point of a knife to carry out end mill, in working angles, point of a knife place rotational line speed is zero, cutter is actual is to scratch, and machining condition is relatively poor, and tool wear is serious.

(2) common ball head knife end incision difficulty, easily causes point of a knife tipping.In processing automobile cladding member mold process, workpiece material is generally the superhard materials such as hardened steel, cutter incision difficulty, and the suffered drag of cutter is larger, easily causes point of a knife tipping, damages cutter.

(3) common ball head knife is narrow row processing, and working (machining) efficiency is lower.In roughing and semifinishing, all use ball head knife processed complex curved surface, even for guaranteeing cutting stability and surplus, path internal is less, belongs to narrow row processing, causes working (machining) efficiency low.

In sum, existing endless knife, when processing high-hardness is complex-curved, exists that to owe the amount of cutting large, has increased subsequent handling workload and remained on surface height is higher, makes the problems such as the vibrations of subsequent processing Tool in Cutting are violent; And common ball head knife to have point of a knife speed be zero, end mill is limited in one's ability, the problem of the easy tipping of point of a knife.

Summary of the invention

The object of the invention is in order to solve existing endless knife when processing high-hardness is complex-curved, have that to owe the amount of cutting large, increased subsequent handling workload and remained on surface height is higher, make subsequent processing Tool in Cutting shake violent problem; And common ball head knife to have point of a knife speed be zero, end mill is limited in one's ability, the problem of the easy tipping of point of a knife.And then provide a kind of complex-shaped surface mould to process the profile milling cutter of use.

Technical scheme of the present invention is: a kind of profile milling cutter of complex-shaped surface mould processing use comprises cutter hub, one end of described cutter hub is provided with a plurality of chip pockets, a plurality of chip pockets are uniform to be offered, described profile milling cutter also comprises the blade that a plurality of structures are identical, in each chip pocket, by screw, be provided with a blade, described blade is indexable insert tip, throw away tip, the outer contour shape of blade is joined and forms in turn by two sections of identical curve head and the tail, and two sections of curves are symmetrical structure about blade center and distribute, described curve comprises three sections of circular arcs and the straight line sword formation that is connected successively, described three sections of circular arcs comprise respectively side edge, arc end sword and rounding sword, side edge, arc end sword and rounding sword and straight line sword are tangent successively, the circular arc radius of curvature R of described side edge is 5mm-25mm, the circular arc radius of curvature rp of arc end sword is 0.5R, the circular arc radius of curvature r of rounding sword is 2mm-5mm, the main central angle θ of blade is 30 °-90 °, the arc length of side edge R is R* (90-0.5* θ) * π/180, secondary central angle δ is 0.5 θ < δ <0.75 θ, rp arc length R* δ * π/180.Face width Dc between the point of a knife of a plurality of blades 3 is 3mm-8mm, and the bottom between the point of a knife of a plurality of blades forms cutter hollow flat-bottom structure.

The present invention compared with prior art has following effect:

1. the present invention compares the face width that has obviously reduced cutter with endless knife, can effectively reduce concave curved surface and owe the amount of cutting.Because of cutter face width, Dc reduces, and end mill ability of the present invention is not as endless knife, but also just because of this, the scope of application of the present invention also expands thereupon.The diameter of conventional endless knife is 20mm, and fillet is 3mm, and its face width Dc is 14mm, and diameter is 20mm, and central angle is that the face width Dc of the present invention of 60 ° is 5mm, as shown in Figure 9 and Figure 10.If when the processing radius of curvature concave curved surface that is 30mm, it is 0.9mm that the owing of endless knife cut thickness, and of the present invention to owe to cut thickness be only 0.1mm, and it more can adapt to complex-curved processing, reduces to owe to cut.

2. the present invention is in the process of die cavity cliff, the step pitch that incision is same, and the present invention compares with endless knife has less scallop-height.In the waste processing of secondary, the normal layer blanking method processing cavity that adopts, especially for the face of rising steeply, cutter machining direction is along contour direction.As shown in Figure 11-Figure 14, D20R3 (diameter is 20mm, and fillet is 3mm) endless knife and D20 central angle are the heart-shaped imitating milling cutter scallop-height of the two circular arcs comparison diagram of 60 °.When the processing gradient is the inclined-plane of 45 °, incision step pitch is 1.5mm, and the scallop-height of endless knife is 0.195mm, and imitating milling cutter scallop-height of the present invention is only 0.056mm, and, under this condition, the present invention can reduce scallop-height 71.3%.

3. the present invention compares with existing ball head knife, and having avoided point of a knife cutting speed is zero defect, and has improved blade end intensity.Cutter end has adopted two circular arc hollow shear blades to replace the spherical sword in ball head knife, due to two circular arc shear blades center indent, having avoided common ball head knife cutting linear velocity Vc is zero defect, hollow structure makes the part that cutting speed is lower not participate in cutting, can increase cutting edge contact length, reduce cutting force, machining condition is good, thereby reduces tool wear.Figure 15 and Figure 16 are common ball head knife and milling cutter end mill machining status involved in the present invention contrast.It is exactly point of a knife position that common ball head knife work in-process holds flimsy part most, and high rigidity surface very easily makes point of a knife position tipping, and the present invention is two arc end sword hollow structures, can effectively avoid tipping phenomenon, brings up to blade end intensity.

4. the present invention compares with ball head knife, has stronger end mill ability.The main purpose of two circular arc hollow flat-bottom structure designs is improved rose cutter end mill performance exactly, makes the waste processing of its secondary that is applicable to complex-shaped surface mould and semifinishing process.From Figure 15 and Figure 16, can obviously find out, of the present inventionly cut wide W2 and be obviously greater than ball head knife and cut wide W1.It is example that the diameter of take is all two kinds of cutters of 40mm, relatively two kinds of milling cutter cutting widths.The in the situation that of cutting-in 0.5mm, it is 8.9mm that ball head knife single is cut wide; And milling cutter of the present invention is in same diameter situation, during 60 °, central angle, cut the wide 16.3mm of reaching.Obviously improved working (machining) efficiency.

5. the present invention compares tool with common ball head knife and has higher feed rate.When setting tool feeding rate, consider that cutter is within the scope of cutting, the maximum feeding that can reach when machining condition is the poorest is set as the feed rate of this cutter in this range of work, and the present invention compares end cutting rate with common ball head knife and obviously improves.Common ball head knife is zero in point of a knife place cutting speed, and metal removal efficiency is low, and now high feeding easily causes cutter to fracture, and this has just limited the feed rate of ball head knife.It is zero problem that the present invention does not exist point of a knife cutting speed, and the minimum cutting rate in its end is π .Dc.n, and wherein n is the speed of mainshaft, has higher metal removal rate.Reduce Tool in Cutting shear blade radial feed drag, can improve the feed rate of cutter, prevent that the excessive cutter that causes of radial load from fractureing.

6. the designed milling cutter of the present invention belongs to special-shaped milling cutter, its tooth shape is special, in the actual use procedure of digital control processing, effective cutting shape after cutter High Rotation Speed (as shown in figure 19) should be imported in the self-defined cutter module of Powermill, software can be according to the cutter appearance profile of input, carry out Boolean calculation, generate corresponding cutter track track.The present invention is directed to the stronger practicality of being processed with of complex-shaped surface mould, through certain complex-shaped surface mould part is carried out to machining simulation, the endless knife (D20R3) of using cutter to be respectively diameter 20mm, fillet 3mm is that 20mm, central angle are 60 ° of novel milling cutters (60 ° of D20 α) with diameter, and the waste process tool route contrast of secondary generating under same machined parameters as shown in Figure 17 and Figure 18.

By the cutter path generating, can be found out, endless knife machining path is sparse, is not worked into die cavity inwall, and newly-designed milling cutter can be worked into the inner most positions of die cavity.Therefore for pocket machining, newly-designed milling cutter has been compared better curved surface adaptive capacity with endless knife.

After secondary roughing, carried out semifinishing simulation comparison first, use diameter be all 20mm 3 cutter, be respectively D20R3 endless knife, 60 ° of novel milling cutters of D20 α, D20 ball head knife, reduce allowance.Adopt three-dimensional biasing Processing Strategies to process, first two milling cutter adopts 3mm path internal, and ball head knife adopts 2mm path internal.

It is that 17min49s, D20 ball head knife process time is 26min23s process time that the D20R3 endless knife machining simulation time is respectively the novel milling cutter of 60 ° of 17min43s, D20 α.By relic model, can find out, new design milling cutter is compared with endless knife processing, can obviously reduce corner and owe the amount of cutting, and guarantees working (machining) efficiency simultaneously.Though and ball head knife has adopted less line-spacing, crudy is the poorest, model surface has obvious residual height vestige, and does not obviously reduce corner and owe the amount of cutting.Novel milling cutter is compared working (machining) efficiency with ball head knife and has been improved 32.4%.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present invention; Fig. 2 is the top view of Fig. 1; Fig. 3 is the side view of Fig. 1; Fig. 4 is the geometrical relationship figure of blade; Fig. 5 is the side view of Fig. 4; Fig. 6 is that Fig. 4 is at the cutaway view at A-A place; Fig. 7 is the arrangement form of two blades of the present invention; Fig. 8 is structural representation and the blade arrangement form of existing willow leaf rose cutter; To be existing endless knife owe to cut schematic diagram what add concave curved surface in man-hour to Fig. 9; What Figure 10 was the present invention at processing concave curved surface owes to cut schematic diagram; Figure 11 is the schematic diagram of existing endless knife residual processing height value; Figure 12 is that Figure 11 is at the partial enlarged drawing (magnification ratio is 10:1) at B place; Figure 13 is the schematic diagram that the present invention processes residual processing height value; Figure 14 is that Figure 13 is at the partial enlarged drawing (magnification ratio is 10:1) at C place; Figure 15 is ball head knife end mill processing structure schematic diagram; Figure 16 is end mill processing structure schematic diagram of the present invention; Figure 17 is the structural representation of endless knife machining path; Figure 18 is the structural representation of machining path of the present invention; Figure 19 is equivalent rotary profile schematic diagram of the present invention.

The specific embodiment

The specific embodiment one: present embodiment is described in conjunction with Fig. 1-Fig. 3, the profile milling cutter of a kind of complex-shaped surface mould processing use of present embodiment comprises cutter hub 1, one end of described cutter hub 1 is provided with a plurality of chip pockets 2, uniform the offering of a plurality of chip pockets 2, it is characterized in that: described profile milling cutter also comprises the blade 3 that a plurality of structures are identical, in each chip pocket 2, by screw, be provided with a blade 3, described each blade 3 is centrosymmetric structure, face width Dc between the point of a knife of a plurality of blades 3 is 3mm-8mm, and the bottom between the point of a knife of a plurality of blades 3 forms cutter hollow flat-bottom structure.

Present embodiment is so set, can effectively improves cutter end machining condition, the defect that the end of the blade of present embodiment is 0 without cutting speed, cuts wider milling width, has strengthened the milling ability of cutter end.

The blade 3 of present embodiment adopts centrosymmetric structure, during blade abrasion, this wearing and tearing blade self is changed to a upper/lower positions and can continue to use.In Fig. 8, the one side blade wearing and tearing of willow leaf rose cutter must, by two blade exchange positions, just can continue to use.

The specific embodiment two: in conjunction with Fig. 1, Fig. 4-Fig. 8 illustrates present embodiment, present embodiment described in each blade 3 be indexable insert tip, throw away tip, the outer contour shape of blade 3 is joined and forms in turn by two sections of identical curve head and the tail, and two sections of curves are symmetrical structure about blade center and distribute, described curve comprises three sections of circular arcs and the straight line sword 3-4 formation that is connected successively, described three sections of circular arcs comprise respectively side edge 3-1, arc end sword 3-2 and rounding sword 3-3, side edge 3-1, arc end sword 3-2 and rounding sword 3-3 and straight line sword 3-4 are tangent successively, the circular arc radius of curvature R of described side edge 3-1 is 5mm-25mm, the circular arc radius of curvature rp of arc end sword 3-2 is 0.5R, the circular arc radius of curvature r of rounding sword 3-3 is 2mm-5mm, the main central angle θ of blade 3 is 30 °-90 °, the arc length of side edge R is R* (90-0.5* θ) * π/180, secondary central angle δ is 0.5 θ < δ <0.75 θ, rp arc length R* δ * π/180.

Tool Design scheme adopts indexable insert tip, throw away tip design, comparatively crucial for the coordinated scheme design between blade and knife bar, should realize two circular arc hollow shear blade construction profile, guarantees again cutter hub intensity.Straight line sword and three sections of different curvature circular arcs in half cutting edge of blade, have been comprised, they are tangent successively, wherein the circular arc of radius of curvature R and rp is actual participation cutting tip, and the arc length of side edge 3-1 is determined by main central angle θ, is side edge R beyond its scope; Wherein in the waste processing of secondary, side edge radius of curvature R span is within the scope of 10mm and 25mm, and main central angle θ span is between 60 ° and 90 °; In semifinishing, side edge radius of curvature R is at 5mm within the scope of 15mm, and main central angle θ is between 30 ° and 60 °; Main central angle scope is with interior arc end sword 3-2 and the flat hollow structure of having comprised, the radius of curvature rp=0.5R of the disconnected sword of circular arc, and rp is the relation that definite value is convenient to accurately control face width Dc and side edge radius of curvature R and main central angle θ.Rp arc length is determined by secondary central angle δ, its span: 0.5 θ < δ <0.75 θ.Between arc end sword and straight line sword, have an interior rounding r, r span is at 2mm between 5mm, and it does not participate in main cutting, and Main Function is to increase blade strength, prevents blade tipping.In Fig. 7, the rp sword circular arc of present embodiment has reduced blade tool cutting edge angle, has increased blade end intensity.Blade end 10 weak strength in Fig. 8.

Dc is cutter face width, i.e. line between two arc end sword peaks in figure.Also be the heart-shaped swords of two circular arcs two distance of center circle from, the pass of point of a knife width D c and spherical radius of curvature R and main central angle θ is: Dc=R * sin (θ/2), it is main cutting edge that face width scope Dc be take the circular arc that outer curvature radius is R and R/2, and face width Dc does not participate in cutting with interior cutting edge.

In Fig. 7,10 positions on present embodiment blade, without the fragile wedge angle of intensity.There is wedge angle 12 in the blade in Fig. 8, easy tipping, and to have point of a knife speed be zero problem.

The specific embodiment three: present embodiment is described in conjunction with Fig. 5 and Fig. 6, the anterior angle γ of each blade 3 of present embodiment is 0-9 degree, and relief angle α is 7-12 degree, and the width M of blade 3 is than the little 1-3mm of the radius of curvature of side edge 3-1, blade lengths L is less than 2R, and thickness s is within the scope of 1.5mm-8mm.So setting, is convenient to meet the waste processing of secondary and semifinishing is 0-4 degree to the span that requires the anterior angle γ of blade in the secondary reclamation of wasteland of different cutter parameters, and the span of relief angle α is 7-9 degree, guarantees blade strength; In semifinishing, the span of the anterior angle γ of blade is 4-8 degree, and the span of relief angle α is 9-12 degree, makes blade sharp, reduces cutting force.Other composition and annexation are identical with the specific embodiment one or two.

The blade width M of present embodiment is than the little 1mm-3mm of side edge radius of curvature R, blade lengths is L, is satisfied with L<2R, and c is the beeline that two blades allow, the minimal thickness that is that cutter hub partly allows, the relation of c and blade width M meets: 2M+c=2R.

The specific embodiment four: in conjunction with Fig. 1 and Fig. 3, present embodiment is described, the cutter hub 1 of present embodiment is the cutter hub with tapering.So arrange, cutter hub design adopts taper shank structure, and object is to guarantee cutter hub rigidity in pocket machining.Other composition and annexation are identical with the specific embodiment one or three.

The specific embodiment five: present embodiment is described in conjunction with Fig. 1 and Fig. 3, the cutter hub 1 of present embodiment comprises the first cutter hub 1-1, the second cutter hub 1-2 and the 3rd cutter hub 1-3, the first cutter hub 1-1, the second cutter hub 1-2 and the 3rd cutter hub 1-3 are fixedly connected sequentially and make one, described the 3rd cutter hub 1-3 is cutter head, the handle of a knife tapering β scope of described the second cutter hub 1-2 is in 2-7 °, cutter hub total length is 150-260mm, the second handle of a knife and the 3rd handle of a knife length sum L2 are 40mm-180mm, and the length L 3 of the 3rd cutter hub 1-3 is 20-150mm.So arrange, can guarantee in cutter hub rigidity situation, increase tool length, be applicable to the processing of dark chamber.Other composition and annexation are identical with the specific embodiment one or four.

The specific embodiment six: in conjunction with Fig. 1 and Fig. 3, present embodiment is described, described the 3rd cutter hub end exists gap 1-4 after blade, and it forms the second relief angle α ` on cutter hub, and its span is 20-30 °.So arrange, cutter hub and workpiece interfere when preventing the cutting of cutter end.Other composition and annexation are identical with the specific embodiment five.

The specific embodiment seven: in conjunction with Fig. 1, present embodiment is described, the little 0.3-1.5mm of radius ratio side edge 3-1 radius of curvature R of the 3rd cutter hub 1-3 of present embodiment.So arrange, while preventing in processed complex die cavity vertical plane, cutter hub and vertical plane interfere.Other composition and annexation are identical with the specific embodiment six.

The specific embodiment eight: in conjunction with Fig. 1 and Fig. 3, present embodiment is described, the quantity of a plurality of chip pockets 2 of present embodiment is 2-4.So arrange, be convenient to meet the demand under different machining states.Other composition and annexation are identical with the specific embodiment one.

Operation principle of the present invention is:

For endless knife processed complex die cavity, exist and to owe the large and ball head knife processing of the amount of cutting to have point of a knife speed be zero, the state of the art of the easy tipping of point of a knife, designed the milling cutter that the waste processing of a kind of complex-shaped surface mould processing secondary and semifinishing are used, its milling performance is between endless knife and ball head knife, its design is in conjunction with the advantage of two kinds of cutters, avoided the defect in the milling of two kinds of cutters to make it be more suitable for the processing of complex-shaped surface mould.Compare with endless knife, it has less face width, thereby can realize the object that reduces to owe the amount of cutting; And compare with ball head knife, two circular arc hollow flat-bottom structures of cutter improve cutter end milling performance, and having avoided point of a knife cutting speed is zero defect, has improved the intensity of blade.

Although the present invention discloses as above with preferred embodiment; yet not of the present invention in order to limit; those skilled in the art can also do other variations in spirit of the present invention; and be applied in the NM field of the present invention; certainly, these variations of doing according to spirit of the present invention all should be included in the present invention's scope required for protection.

Claims (8)

1. a complex-shaped surface mould is processed the profile milling cutter of use, it comprises cutter hub (1), one end of described cutter hub (1) is provided with a plurality of chip pockets (2), uniform the offering of a plurality of chip pockets (2), it is characterized in that: described profile milling cutter also comprises the blade that a plurality of structures are identical (3), in each chip pocket (2), by screw, be provided with a blade (3), described each blade (3) is centrosymmetric structure, face width Dc between the point of a knife of a plurality of blades (3) is 3mm-8mm, and the bottom between the point of a knife of a plurality of blade (3) forms cutter hollow flat-bottom structure.

2. a kind of complex-shaped surface mould is processed the profile milling cutter of use according to claim 1, it is characterized in that: blade described in each (3) is indexable insert tip, throw away tip, the outer contour shape of blade (3) is joined and forms in turn by two sections of identical curve head and the tail, and two sections of curves are symmetrical structure about blade center and distribute, described curve comprises three sections of circular arcs and straight line sword (3-4) formation that is connected successively, described three sections of circular arcs comprise respectively side edge (3-1), arc end sword (3-2) and rounding sword (3-3), side edge (3-1), arc end sword (3-2) and rounding sword (3-3) and straight line sword (3-4) are tangent successively, the circular arc radius of curvature R of described side edge (3-1) is 5mm-25mm, the circular arc radius of curvature rp of arc end sword (3-2) is 0.5R, the circular arc radius of curvature r of rounding sword (3-3) is 2mm-5mm, the main central angle θ of blade (3) is 30 °-90 °, the arc length of side edge R is R* (90-0.5* θ) * π/180, secondary central angle δ is 0.5 θ < δ <0.75 θ, and rp arc length is R* δ * π/180.

3. according to the profile milling cutter of a kind of complex-shaped surface mould processing use described in claim 1 or 2, it is characterized in that: the anterior angle γ of described each blade (3) is 0-9 degree, relief angle α is 7-12 degree, the width M of blade (3) is than the little 1-3mm of radius of curvature of side edge (3-1), blade lengths L is less than 2R, and thickness s is within the scope of 1.5mm-8mm.

4. a kind of complex-shaped surface mould is processed the profile milling cutter of use according to claim 3, it is characterized in that: described cutter hub (1) is the cutter hub with tapering.

5. a kind of complex-shaped surface mould is processed the profile milling cutter of use according to claim 4, it is characterized in that: described cutter hub (1) comprises the first cutter hub (1-1), the second cutter hub (1-2) and the 3rd cutter hub (1-3), the first cutter hub (1-1), the second cutter hub (1-2) and the 3rd cutter hub (1-3) are fixedly connected sequentially and make one, described the 3rd cutter hub (1-3) is cutter head, the handle of a knife tapering β of described the second cutter hub (1-2) is 2-7 °, cutter hub total length L 1 is 150-260mm, the second handle of a knife and the 3rd handle of a knife length sum L2 are 40mm-180mm, and the 3rd cutter hub length L 3 is 20-150mm.

6. a kind of complex-shaped surface mould is processed the profile milling cutter of use according to claim 4, it is characterized in that: described the 3rd cutter hub (1-3) end exists gap (1-4) after blade, it forms the second relief angle α ` on cutter hub, and its span is 20 °-30 °.

7. a kind of complex-shaped surface mould is processed the profile milling cutter of use according to claim 4, it is characterized in that: the little 0.3-1.5mm of radius of curvature R of the radius ratio side edge (3-1) of described the 3rd cutter hub (1-3).

8. a kind of complex-shaped surface mould is processed the profile milling cutter of use according to claim 1, it is characterized in that: the quantity of described a plurality of chip pockets (2) is 2-4.